Timeline for Approximation for interpolation of harmonic numbers
Current License: CC BY-SA 4.0
14 events
| when toggle format | what | by | license | comment | |
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| Jun 12, 2023 at 11:16 | vote | accept | Martin Clever | ||
| Jun 11, 2023 at 17:04 | history | edited | YCor | CC BY-SA 4.0 |
formatting, added tag
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| Jun 11, 2023 at 16:32 | answer | added | Iosif Pinelis | timeline score: 5 | |
| Jun 11, 2023 at 14:40 | history | edited | Christophe Leuridan | CC BY-SA 4.0 |
More explicit title
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| Jun 11, 2023 at 13:44 | comment | added | Gro-Tsen | Doesn't the Wikipedia section on computing the digamma function (together with an approximation of the Euler-Mascheroni constant) contain all the information you need on how to compute $H(p) = \psi(p+1) + \gamma$ to any given precision? | |
| Jun 11, 2023 at 11:56 | history | edited | Martin Clever | CC BY-SA 4.0 |
edited body
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| Jun 11, 2023 at 11:51 | comment | added | Martin Clever | en.wikipedia.org/wiki/… has an explicit formular for $H_\frac{p}{q}$, though the approximations for cos, ln,... will be annoying, I'll update the question once I implemented it | |
| Jun 11, 2023 at 11:47 | history | edited | Martin Clever | CC BY-SA 4.0 |
added 74 characters in body
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| Jun 11, 2023 at 11:24 | comment | added | ho boon suan | If so, for rational $0<p<1$ you can look at en.wikipedia.org/wiki/… | |
| Jun 11, 2023 at 11:20 | comment | added | ho boon suan | Possibly the generalization of the harmonic number $H_n=1+1/2+\dots+1/n$ to noninteger $n$ given by $H_x=\sum_{n\ge1}(1/n-1/(n+x))$? | |
| Jun 11, 2023 at 11:08 | comment | added | Wojowu | What do you mean with $H(p)$? | |
| Jun 11, 2023 at 10:56 | history | edited | Martin Clever | CC BY-SA 4.0 |
added 19 characters in body
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| S Jun 11, 2023 at 10:54 | review | First questions | |||
| Jun 11, 2023 at 11:32 | |||||
| S Jun 11, 2023 at 10:54 | history | asked | Martin Clever | CC BY-SA 4.0 |